Trippy Hallucinogens

What are hallucinogens?

Hallucinogens are a diverse group of drugs that alter a person’s awareness of their surroundings as well as their own thoughts and feelings. They are commonly split into two categories: classic hallucinogens (such as LSD) 
Image
Salvia plant.
Photo by © Wikimedia Commons/Salvia
Salvia plant

and dissociative drugs (such as PCP). Both types of hallucinogens can cause hallucinations, or sensations and images that seem real though they are not. Additionally, dissociative drugs can cause users to feel out of control or disconnected from their body and environment.

Some hallucinogens are extracted from plants or mushrooms, and some are synthetic (human-made). Historically, people have used hallucinogens for religious or healing rituals. More recently, people report using these drugs for social or recreational purposes, including to have fun, deal with stress, have spiritual experiences, or just to feel different.

Common classic hallucinogens include the following:

LSD (D-lysergic acid diethylamide) is one of the most powerful mind-altering chemicals. It is a clear or white odorless material made from lysergic acid, which is found in a fungus that grows on rye and other grains. 
Psilocybin (4-phosphoryloxy-N,N-dimethyltryptamine) comes from certain types of mushrooms found in tropical and subtropical regions of South America, Mexico, and the United States. 
Peyote (mescaline) is a small, spineless cactus with mescaline as its main ingredient. Peyote can also be synthetic. 
DMT (N,N-dimethyltryptamine) is a powerful chemical found naturally in some Amazonian plants. Ayahuasca is a tea made from such plants, and when taken in this form it is also known as hoasca, aya, and yagé. People can also make DMT in a lab. Synthetic DMT usually takes the form of a white crystalline powder that is smoked.
251-NBOMe is a synthetic hallucinogen with similarities both to LSD and MDMA (see DrugFacts: MDMA) but that is much more potent. Developed for use in brain research, when sold illegally it is sometimes called N Bomb or 251.

Common examples of dissociative drugs include the following:
Image
Ketamine in white powder form.
Photo by © Wikimedia Commons/Ketamine
Ketamine

PCP (Phencyclidine) was developed in the 1950s as a general anesthetic for surgery, but it is no longer used for this purpose due to serious side effects. PCP can be found in a variety of forms, including tablets or capsules; however, liquid and white crystal powder are the most common.
Ketamine is used as a surgery anesthetic for humans and animals. Much of the ketamine sold illegally come from veterinary offices. It mostly sells as a powder or as pills, but it also available as an injectable liquid. Ketamine is snorted or sometimes added to drinks as a date-rape drug. 
Dextromethorphan (DXM) is a cough suppressant and mucus-clearing ingredient in some over-the-counter cold and cough medicines (syrups, tablets, and gel capsules). 
Salvia (Salvia divinorum) is a plant common to southern Mexico and Central and South America. Salvia is typically ingested by chewing fresh leaves or by drinking their extracted juices. The dried leaves of salvia can also be smoked or vaporized and inhaled. 

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The following is a list of psychedelic drugs of various chemical classes, including both naturally occurring and synthetic compounds. Serotonergic psychedelics are usually considered the "classical" psychedelics[dubious – discuss], whereas the other classes are often seen as having only secondary psychedelic properties; nonetheless all of the compounds listed here are considered psychoactive and hallucinogenic in humans to some degree.

Some of these compounds may be classified differently or under more than one category due to a unique structural classification, multiple mechanisms of action, or the fact that the precise pharmacodynamic actions of the compound are not yet completely understood. Because of the vast amount of possible substitutions and chemical analogs of most psychedelic compounds, the total diversity of chemical compounds which produce psychedelic effects in humans is not fully reflected within this list, leaving room for many that have not yet been sufficiently investigated and others that have not yet been discovered.

Naturally occurring compounds are marked with a †.

Indoles
Tryptamines (more specifically alkylated tryptamines])
Psilocin†, also known as '4-HO-DMT'; another active constituent of the Psilocybe genus of mushrooms; also a metabolite of psilocybin and psilacetin
Psilocybin†, also known as '4-PO-DMT'; the primary active constituent of the Psilocybe genus of mushrooms; its effects are partially attributed to psilocin, to which it is a prodrug via dephosphorylation
Bufotenin†, also known as '5-HO-DMT' and dimethylserotonin; another constituent of the skin and venom of psychoactive toads, its psychedelic activity is disputed; also a metabolite of 5-MeO-DMT
Baeocystin†, also known as '4-PO-NMT'; another active constituent of the Psilocybe genus of mushrooms; its psychedelic activity is disputed
Aeruginascin†, also known as '4-PO-N-TMT', an active constituent of the mushroom Inocybe aeruginascens
5-MeO-DMT†, the primary active constituent of the skin and venom of psychoactive toads, a prodrug to bufotenin via demethylation
N,N-Dimethyltryptamine†, also known as 'DMT'; the primary active constituent of the Amerindian brew ayahuasca; endogenously present in various plants and animals, including humans, possibly a trace amine neurotransmitter
5-Bromo-DMT†, was found in the marine invertebrates Smenospongia aurea and Smenospongia echina, as well as in Verongula rigida
N-Methyl-N-ethyltryptamine, also known as 'MET'
N-Methyl-N-isopropyltryptamine, also known as 'MiPT'
N-Methyl-N-propyltryptamine, also known as 'MPT'
N,N-Diethyltryptamine, also known as 'DET'
N-Ethyl-N-isopropyltryptamine, also known as 'EiPT'
N-Methyl-N-butyltryptamine, also known as 'MBT'
N-Propyl-N-isopropyltryptamine, also known as 'PiPT'
N,N-Dipropyltryptamine, also known as 'DPT'
N,N-Diisopropyltryptamine, also known as 'DiPT'
N,N-Diallyltryptamine, also known as 'DALT'
N,N-Dibutyltryptamine, also known as 'DBT'
N-Ethyltryptamine, also known as 'NET'
N-Methyltryptamine†, also known as 'NMT'; its psychedelic activity is disputed
Trimethyltryptamine, also known as 'TMT' (2,N,N-TMT, 5,N,N-TMT, and 7,N,N-TMT)
α-Methyltryptamine, also known as 'αMT' and 'AMT'; also has entactogenic properties
α-Ethyltryptamine, also known as 'αET' and 'AET'; also has entactogenic properties
α,N-DMT
α,N,N-Trimethyltryptamine, also known as 'α-TMT'
Ethocybin, also known as '4-PO-DET', 'CEY-19', and 'CEY-39'
4-HO-MET, also known as 'Metocin', 'Methylcybin', and 'Colour'
4-HO-DET, also known as 'Ethocin' and 'CZ-74'
4-HO-MPT, also known as 'Meprocin'
4-HO-MiPT, also known as 'Miprocin'
4-HO-MALT
4-HO-DPT, also known as 'Deprocin'
4-HO-DiPT, also known as 'Iprocin'
4-HO-DALT, also known as 'Daltocin'
4-HO-DBT
4-HO-DSBT
4-HO-αMT
4-HO-MPMI, also known as 'Lucigenol'
4-HO-TMT
4-HO-1,N,N-TMT, also known as '1-Me-4-HO-DMT' and '1-methylpsilocin'
4-HO-5-MeO-DMT, also known as 'Psilomethoxin'
4-AcO-DMT, also known as 'psiloacetin'; its effects are partially attributed to psilocin, to which it is a prodrug via deacetylation
4-AcO-MET, also known as 'Metacetin'
4-AcO-MiPT
4-AcO-MALT
4-AcO-DET, also known as 'Ethacetin'
4-AcO-EiPT, also known as 'Ethipracetin'
4-AcO-DPT, also known as 'Depracetin'
4-AcO-DiPT, also known as 'Ipracetin'
4-AcO-DALT, also known as 'Daltacetin'
4-MeO-DMT
4-MeO-MiPT
5-MeO-NMT†
5-MeO-MET
5-MeO-MPT
5-MeO-MiPT, also known as 'Moxy'; also has entactogenic properties
5-MeO-MALT
5-MeO-DET
5-MeO-EiPT
5-MeO-EPT
5-MeO-PiPT
5-MeO-DPT
5-MeO-DiPT, also known as 'Foxy Methoxy'
5-MeO-DALT
5-MeO-αMT, also has entactogenic properties
5-MeO-αET, also has entactogenic properties
5-MeO-MPMI
5-MeO-2,N,N-TMT , also known as 'Indomethacin' and 'Indapex'
5-MeO-7,N,N-TMT
5-MeO-a,N-DMT, also known as 'α,N,O-TMS'
4-F-5-MeO-DMT
5-MeS-DMT
5-Me-MiPT, its psychedelic activity is disputed
5-HO-DiPT
2-α-DMT
2-Me-DET
4-Me-αMT
4-Me-αET, also has entactogenic properties
7-Me-αET, also has entactogenic properties
4,5-DHP-AMT, also known as 'AL-37350A'
4,5-DHP-DMT
4,5-MDO-DMT
4,5-MDO-DiPT
5,6-MDO-DiPT
5,6-MDO-MiPT
5-Fluoro-αMT, also has entactogenic properties
6-Fluoro-αMT
6-Fluoro-DMT
N,N-Tetramethylenetryptamine, also known as 'Pyr-T'
4-HO-pyr-T
5-MeO-pyr-T
RU-28306, also known as '4,a-Methylene-N,N-DMT'
O-4310, also known as '6-Fluoro-1-Isopropyl-4-HO-DMT'
CP-132,484, also known as '4,5-DHP-1-Methyltryptamine'
Benzofuran derivatives (technically not tryptamines)
Dimemebfe, also known as '5-MeO-BFE'
5-MeO-DiBF
Ibogoids (can be classified as complex tryptamines)
Ibogaine†, the primary active constituent of iboga rootbark; also has dissociative properties
Voacangine†, another active constituent of iboga rootbark
Ergolines (more specifically lysergamides, which can be classified as complex tryptamines; also contain a phenethylamine backbone)
Lysergic acid diethylamide, also known as 'LSD' and 'acid'
Lysergic acid amide†, also known as 'LSA' and 'ergine'; the primary active constituent of morning glory and Hawaiian baby woodrose seeds
N1-Methyl-lysergic acid diethylamide, also known as 'MLD-41'
N-Acetyl-lysergic acid diethylamide, also known as 'ALD-52'
1-Propionyl-lysergic acid diethylamide, also known as '1P-LSD'; its effects are partially attributed to LSD, to which it is a prodrug via hydrolyzation
1‐cyclopropanoyl‐d‐lysergic acid diethylamide, also known as '1cP-LSD'
1-valeryl-D-lysergic acid diethylamide, also known as '1V-LSD'
6-Allyl-6-nor-lysergic acid diethylamide, also known as 'AL-LAD'
6-Butyl-6-nor-lysergic acid diethylamide, also known as 'BU-LAD'
6-Ethyl-6-nor-lysergic acid diethylamide, also known as 'ETH-LAD'
1-Propionyl-6-Ethyl-6-nor-lysergic acid diethylamide, also known as '1P-ETH-LAD'
6-Propyl-6-nor-lysergic acid diethylamide, also known as 'PRO-LAD'
6-Cyclopropyl-6-nor-lysergic acid diethylamide, also known as 'CYP-LAD'
6-nor-Lysergic acid diethylamide, also known as 'PARGY-LAD'
Lysergic acid ethylamide, also known as 'LAE-32'
Lysergic acid α-hydroxyethylamide†, also known as 'LSH' and 'LAH'; another active constituent of morning glory seeds; an active constituent of some species of fungi
Lysergic acid 2-butyl amide, also known as 'LSB'
Lysergic acid 3-pentyl amide, also known as 'LSP'
Lysergic acid methyl ester, also known as 'LSME'
Lysergic acid 2,4-dimethylazetidide, also known as 'LSZ' and 'LA-SS-Az'
Lysergic acid piperidine, also known as 'LSD-Pip'; its psychedelic activity is disputed
N,N-Dimethyl-lysergamide, also known as 'DAM-57'
Methylisopropyllysergamide, also known as 'MIPLA'
N,N-Diallyllysergamide, also known as 'DAL'
N-Pyrrolidyllysergamide, also known as 'LPD-824'
N-Morpholinyllysergamide, also known as 'LSM-775'
1-methyl-lysergic acid butanolamide, also known as 'Methysergide'; the active constituent of Sansert and Deseril; a prodrug which has to be metabolized to methylergometrine to become psychoactive
Lysergic acid β-propanolamide†, also known as 'Ergonovine' and 'Ergometrine'; another active constituent of morning glory seeds, and an active constituent of ergot fungi
Lysergic acid 1-butanolamide†, also known as 'Methylergonovine', 'Methergine', and 'Methylergometrine'; another active constituent of morning glory seeds and of ergot fungi
Phenethylamines (more specifically alkoxylated phenethylamines)
Substituted phenethylamines
Mescaline†, the primary active constituent of certain cacti, such as peyote and San Pedro
Lophophine†, also known as 'MMDPEA'; another active constituent of certain cacti, such as peyote and San Pedro; also has entactogenic properties
Isomescaline
Cyclopropylmescaline
Thioisomescaline (2-TIM, 3-TIM, and 4-TIM)
4-Desoxymescaline
Jimscaline
Escaline
Metaescaline
Thiometaescaline (3-TME, 4-TME, and 5-TME)
Trisescaline
Thiotrisescaline (3-T-TRIS and 4-T-TRIS)
Symbescaline
Asymbescaline
Thiosymbescaline (3-TSB and 4-TSB)
Phenescaline
Allylescaline, also known as 'AL'
Methallylescaline
Proscaline
Isoproscaline
Metaproscaline
Thioproscaline
Buscaline
Thiobuscaline
α-ethylmescaline, also known as 'AEM'
Ariadne, also known as 'α-Et-DOM', '4C-D', and 'Dimoxamine'
Macromerine
MEPEA
TOM (2-TOM and 5-TOM)
Bis-TOM
TOMSO, also known as '2-methoxy-4-methyl-5-methylsulfinylamphetamine'
TOET (2-TOET and 5-TOET)
BOH
BOM, also known as 'β-Methoxy-mescaline'
β-D
4-D
DME
F-2
F-22
FLEA, also known as 'MDHMA'
MDPH
MDMP
Propynyl
2C family (2,5-dimethoxy, 4-substituted phenethylamines)
βk-2C-B
2C-B
2CB-2EtO
2CB-5EtO
2CB-diEtO
2C-B-FLY
2C-B-BUTTERFLY
2C-C
2C-D
2CD-2EtO
2CD-diEtO
2CD-5EtO
2C-E
2C-EF
2C-F
2C-G (2C-G-1, 2C-G-2, 2C-G-3, 2C-G-4, 2C-G-5, 2C-G-6, and 2C-G-N)
2C-H
2C-I
2CI-2EtO
2C-iP
2C-N
2C-O
2C-O-4
2C-P
2C-SE
2C-T
2CT-5EtO
2C-T-2
2CT-2-2EtO
2CT-2-5EtO
2CT-2-diEtO
2C-T-4 (2C-T-4 and Ψ-2C-T-4)
2CT-4-2EtO
2C-T-7
2CT-7-2EtO
2C-T-8
2C-T-9
2C-T-13
2C-T-15
2C-T-16
2C-T-17
2C-T-19,
2C-T-21
2C-TFM
2C-YN
BOB, also known as 'β-Methoxy-2C-B'
BOD, also known as 'β-Methoxy-2C-D'
BOHD, also known as 'β-Hydroxy-2C-D'
HOT-2
HOT-7
HOT-17
Indane derivatives (technically not phenethylamines)
2CB-Ind
Benzocyclobutene derivatives (technically not phenethylamines)
2C-BCB, also known as 'TCB-2'
NBOMe derivatives
NBOMe-mescaline
2C-H-NBOMe, also known as '25H-NBOMe'
2C-C-NBOMe, also known as '25C-NBOMe'
2CBCB-NBOMe, also known as 'NBOMe-TCB-2'
2CBFly-NBOMe, also known as 'Cimbi-31'
2C-B-NBOMe, also known as '25B-NBOMe', 'M25B-NBOMe', 'BOM 2-CB', 'Cimbi-36', 'Nova', or 'New Nexus'
2C-I-NBOMe, also known as '25I-NBOMe', 'Cimbi-5', "Solaris", or "N-Bomb"
2C-TFM-NBOMe, also known as '25TFM-NBOMe'
2C-D-NBOMe, also known as '25D-NBOMe'
2C-G-NBOMe, also known as '25G-NBOMe'
2C-E-NBOMe, also known as '25E-NBOMe'
2C-P-NBOMe, also known as '25P-NBOMe'
2C-iP-NBOMe, also known as '25iP-NBOMe'
2C-CN-NBOMe, also known as '25CN-NBOMe'
2C-N-NBOMe, also known as '25N-NBOMe'
2C-T-NBOMe, also known as '25T2-NBOMe'
2C-T-4-NBOMe, also known as '25T4-NBOMe'
2C-T-7-NBOMe, also known as '25T7-NBOMe'
DMBMPP, 2-Benzylpiperidine analogue of 25B-NBOMe
NBOH derivatives
2C-C-NBOH, also known as '25C-NBOH' and 'NBOH-2CC'
2C-B-NBOH, also known as '25B-NBOH'
2C-I-NBOH, also known as '25I-NBOH'
2C-CN-NBOH, also known as '25CN-NBOH' and 'NBOH-2C-CN'
NBMD derivatives
2C-I-NBMD, also known as '25I-NBMD'
NBF derivatives
2C-C-NBF, also known as '25C-NBF'
2C-B-NBF, also known as '25B-NBF'
2C-I-NBF, also known as '25I-NBF'
Substituted amphetamines (alpha-methyl-phenethylamines)
3C family (3,5-dimethoxy, 4-substituted amphetamines)
3C-E
3C-P
3C-DFE
3C-BZ
DOx family (2,5-dimethoxy, 4-substituted amphetamines)
DOAM
DOB
Meta-DOB
Methyl-DOB
DOBU
DOC
DOEF
DOET, also known as 'DOE'
DOI
DOM, also known as 'STP'
Ψ-DOM
DON
DOPR
DOiPR
DOT, also known as 'Aleph' (Aleph-2, Aleph-4, Aleph-6, and Aleph-7)
Meta-DOT
Ortho-DOT
DOTFM
Phenylcyclopropylamine derivatives (technically not amphetamines)
DMCPA
DMMDA
DMMDA-2
2,5-dimethoxy-3,4-dimethylamphetamine, also known as 'Ganesha'; (G-3, G-4, G-5, and G-N)
4-methyl-2,5-dimethoxymethamphetamine, also known as 'Beatrice', 'MDO-D', and 'MDOM'
2,N-dimethyl-4,5-methylenedioxyamphetamine, also known as 'Madam-6'
Dimethoxyamphetamine (2,4-DMA, 2,5-DMA, and 3,4-DMA)
Trimethoxyamphetamine (TMA-2, TMA-6)
Tetramethoxyamphetamine
Br-DragonFLY
TFMFly
2-Bromo-4,5-methylenedioxyamphetamine
4-Bromo-3,5-dimethoxyamphetamine
EEE
EEM
EME
EMM
EDMA
EIDA
Ethyl-J, also known as 'EBDB'
Methyl-J, also known as 'MDMB'
Ethyl-K, also known as 'EBDP'
Methyl-K, also known as 'MBDP' and 'UWA-91'
IDNNA
Iris
MDAI
MDMAI
MDAT
MDMAT
MDAL
MDBU
MDBZ
MDDM
MDIP
MDMEOET
MDMEO
MDOH, also known as 'MDH'
MDHOET
MDPL
MDCPM
MDPR
MEDA
MEM
Methyl-DMA
MMDA, also known as '3-methoxy-MDA' (2T-MMDA-3a and 4T-MMDA-2)
MMDA-2
5-Methyl-MDA
MEE
MME
MPM
DiFMDA
5-APB
6-APB, also known as 'Benzofury'
5-APDB
6-APDB
5-MAPB
5-MAPDB
6-MAPDB, its psychedelic activity is disputed
6-MAPB
6-EAPB
5-EAPB
Para-Methoxyamphetamine, also known as 'PMA' and '4-MA'
Paramethoxymethamphetamine, also known as 'PMMA', 'Methyl-MA', and '4-MMA'
4-Ethylamphetamine, also known as '4-EA'
3-Methoxy-4-methylamphetamine, also known as 'MMA'
4-Methylmethamphetamine, also known as '4-MMA'
4-Methylthioamphetamine, also known as '4-MTA'
4-Fluoroamphetamine, also known as '4-FA', 'PAL-303', 'Flux', 'Flits', 'R2D2', and 'Miley'
Norfenfluramine, also known as '3-TFMA'
Para-Iodoamphetamine, also known as 'PIA', '4-iodoamphetamine', and '4-IA'
Para-Chloroamphetamine, also known as 'PCA', '4-chloroamphetamine', and '4-CA'
Benzoxazines (more specifically cyclopropylethynylated benzoxazines)
Substituted benzoxazines
Efavirenz, the active constituent of Sustiva, Stocrin, and Efavir

Empathogens/entactogens (serotonin (5-HT) releasing agents)

Substituted methylenedioxy-phenethylamines (MDxx)
MDMA, also known as 'Molly', and 'Mandy'
MDA, also known as 'Sass'
2,3-MDA, also known as 'ORTHO-MDA'
5-Methyl-MDA
MMDA, also known as '3-methoxy-MDA'
MDEA, also known as 'MDE'
MBDB
MDAL
MDBU
MDBZ
MDDM
MDIP
MDMEOET
MDMEO
MDOH, also known as 'MDH'
MDHOET
MDPL
MDCPM
MDPR
BDB, also known as 'MDB' and 'J'
MMDA-2
DiFMDA
EIDA
Ethyl-K, also known as 'EBDP'
Lophophine†, also known as 'MMDPEA'; an active constituent of certain cacti, such as peyote and San Pedro
Substituted amphetamines (exclusively; most of the substituted methylenedioxy-phenethylamines also overlap this category)
EDMA
Para-Methoxyamphetamine, also known as 'PMA'
Paramethoxymethamphetamine, also known as 'PMMA' and 'Methyl-MA'
4-Ethylamphetamine, also known as '4-EA'
3-Methoxy-4-methylamphetamine, also known as 'MMA'
4-Methylmethamphetamine, also known as '4-MMA'
4-Methylthioamphetamine, also known as '4-MTA'
4-Fluoroamphetamine, also known as '4-FA', 'PAL-303', 'Flux', 'Flits', 'R2D2', and 'Miley'
Norfenfluramine, also known as '3-TFMA'
Para-Iodoamphetamine, also known as 'PIA', '4-iodoamphetamine', and '4-IA'
Para-Chloroamphetamine, also known as 'PCA', '4-chloroamphetamine', and '4-CA'
Substituted cathinones
Methylone, also known as 'bk-MDMA' and 'MDMC'
Ethylone, also known as 'bk-MDEA' and 'MDEC'
Eutylone, also known as 'bk-EBDB'
Butylone, also known as 'bk-MBDB'
Pentylone, also known as 'bk-Methyl-K' and 'bk-MBDP'
4-Ethylmethcathinone, also known as '4-EMC'
3-Methylmethcathinone, also known as '3-MMC'
Substituted benzofurans
5-APB
6-APB
5-APDB
6-APDB
5-MAPB
5-MAPDB
6-MAPDB, its psychedelic activity is disputed
6-MAPB
5-EAPB
6-EAPB
5-MBPB
Substituted tetralins
MDAT
MDMAT
6-CAT
Tetralinylaminopropane, also known as 'TAP' and '6-APT'
Substituted indanes
Trifluoromethylaminoindane, also known as 'TAI'
Ethyltrifluoromethylaminoindane, also known as 'ETAI'
5-Iodo-2-aminoindane, also known as '5-IAI'
MMAI
MDAI
MDMAI
Indanylaminopropane, also known as '5-APDI' and 'IAP'
Substituted naphthalenes
Naphthylaminopropane, also known as 'NAP' and 'PAL-287'
Substituted phenylisobutylamines (alpha-ethyl-phenethylamines)
4-chlorophenylisobutylamine, also known as '4-chloro-α-ethylphenethylamine', '4-CAB', and 'AEPCA'
4-Methylphenylisobutylamine, also known as '4-MAB'
Ariadne, also known as 'α-Et-DOM', '4C-D', and 'Dimoxamine'
Alpha-substituted (-alkylated) tryptamines
α-methyltryptamine, also known as 'αMT' and 'AMT'
5-MeO-αMT
α-ethyltryptamine, also known as 'αET' and 'AET'
4-Me-αET
7-Me-αET
5-MeO-αET
5-MeO-MiPT

Cannabinoids (CB-1 cannabinoid receptor ligands)

Phytocannabinoids
Δ9-THC†, agonist;[1] the primary active constituent of cannabis[2]
11-hydroxy-Δ9-THC, agonist; an active metabolite of orally administered Δ9-THC;[3] not technically a phytocannabinoid
CBD†, negative allosteric modulator,[4] another major active constituent of cannabis
CBN†, a minor active constituent of cannabis, also a metabolite of THC and a product of its degradation[citation needed]
THCV†, a minor active constituent of cannabis
Synthetic cannabinoids
(C6)-CP 47,497
(C9)-CP 47,497
1-Butyl-3-(2-methoxybenzoyl)indole
1-Butyl-3-(4-methoxybenzoyl)indole
1-Pentyl-3-(2-methoxybenzoyl)indole
2-Isopropyl-5-methyl-1-
(2,6-dihydroxy-4-nonylphenyl)cyclohex-1-ene
4-HTMPIPO
4-Nonylphenylboronic acid
5Br-UR-144
5Cl-APINACA
5Cl-UR-144
5F-3-pyridinoylindole
5F-AB-FUPPYCA
5F-ADB-PINACA
5F-ADBICA
5F-ADB
5F-AMB
5F-APINACA
5F-CUMYL-PINACA
5F-EMB-PINACA
5F-NNE1
5F-PB-22
5F-PCN
5F-PY-PICA
5F-PY-PINACA
5F-SDB-006
HHC
A-796,260
A-834,735
A-836,339
A-955,840
A-40174
A-41988
A-42574
AB-001
AB-CHFUPYCA
AB-CHMFUPPYCA
AB-CHMINACA
AB-FUBICA
AB-FUBINACA 2-fluorobenzyl isomer
AB-FUBINACA
AB-PICA
AB-PINACA
Abnormal cannabidiol
ADAMANTYL-THPINACA
ADB-CHMINACA
ADB-FUBICA
ADB-FUBINACA
ADB-PINACA
ADBICA
ADSB-FUB-187
Ajulemic acid
AM-087
AM-411
AM-630
AM-630
AM-679
AM-694
AM-855
AM-883
AM-905
AM-906
AM-919
AM-926
AM-938
AM-1220
AM-1221
AM-1235
AM-1241
AM-1248
AM-1346
AM-1387
AM-1714
AM-2201
AM-2232
AM-2233
AM-2389
AM-4030
AM-4113
AM-6527
AM-6545
AM-251
AM-281
AM-404
AMB-CHMINACA
AMB-FUBINACA
AMG-1
AMG-3
AMG-36
AMG-41
APICA
APINACA, also known as 'AKB48'
APP-FUBINACA
Arachidonoyl serotonin
ACEA
ACPA
Arvanil
AZ-11713908
BAY 38-7271
BAY 59-3074
BIM-018
Biochanin A
BML-190
Nabidrox (Canbisol)
Cannabicyclohexanol
Cannabipiperidiethanone
CAY-10401
CAY-10429
CAY-10508
CB-13
CB-25
CB-52
CB-86
CB-86
CBS-0550
CP 47,497
CP 55,244
CP 55,940
CUMYL-5F-PICA
CUMYL-BICA
CUMYL-PICA
CUMYL-PINACA
CUMYL-THPINACA
Dexanabinol, also known as 'HU-211'
Dimethylheptylpyran, also known as 'DMHP'
Drinabant, also known as 'AVE1625'
Dronabinol
EAM-2201
EMB-FUBINACA
FAB-144
FDU-NNE1
FDU-PB-22
FUB-144
FUB-APINACA
FUB-JWH-018
FUB-PB-22
FUBIMINA
Genistein
GW-405,833, also known as 'L-768,242'
GW-842,166X
Hemopressin
HU-210
HU-243
HU-308
HU-320
HU-331
HU-336
HU-345
HU-910
Ibipinabant, also known as 'SLV319'
IDFP
JNJ 1661010
JTE-907
JTE 7-31
JWH-007
JWH-015
JWH-018
JWH-019
JWH-030
JWH-051
JWH-073
JWH-081
JWH-098
JWH-116
JWH-122
JWH-133
JWH-139
JWH-147
JWH-149
JWH-161
JWH-164
JWH-167
JWH-175
JWH-176
JWH-182
JWH-184
JWH-185
JWH-192
JWH-193
JWH-194
JWH-195
JWH-196
JWH-197
JWH-198
JWH-199
JWH-200
JWH-203
JWH-210
JWH-229
JWH-249
JWH-250
JWH-251
JWH-302
JWH-307
JWH-359
JWH-369
JWH-370
JWH-398
JWH-424
JZL184
JZL195
Kaempferol
KM-233
L-759,633
L-759,656
LASSBio-881
LBP-1
Leelamine
Levonantradol, also known as 'CP 50,5561'
LH-21
LY-320,135
LY-2183240
MAM-2201
MDA-7
MDA-19
MDA-77
MDMB-CHMICA
MDMB-CHMINACA
MDMB-FUBINACA
Menabitan
MEPIRAPIM
Methanandamide, also known as 'AM-356'
MJ-15
MK-9470
MMB-2201
MN-18
MN-25, also known as 'UR-12'
Nabazenil
Nabilone
Nabitan
Naboctate
NESS-0327
NESS-040C5
NIDA-41020
NM-2201
NMP-7
NNE1
Nonabine
O-224
O-581
O-585
O-606
O-689
O-774
O-806
O-823
O-889
O-1057
O-1125
O-1184
O-1191
O-1238
O-1248
O-1269
O-1270
O-1376
O-1399
O-1422
O-1601
O-1602
O-1624
O-1656
O-1657
O-1660
O-1812
O-1860
O-1861
O-1871
O-1918
O-2048
O-2050
O-2093
O-2113
O-2220
O-2365
O-2372
O-2373
O-2383
O-2426
O-2484
O-2545
O-2654
O-2694
O-2715
O-2716
O-3223
O-3226
Oleoylethanolamide, also known as 'OEA'
Olvanil
Org 27569
Org 27759
Org 28312
Org 28611
Org 29647
Otenabant, also known as 'CP-945,598'
Palmitoylethanolamide, also known as 'PEA'
Parahexyl
PF-03550096
PF-04457845
PF-622
PF-750
PF-3845
PF-514273
PHOP
PipISB
Pirnabine
Pravadoline
Pregnenolone
PSB-SB-487
PSB-SB-1202
PTI-1
PTI-2
PX-1
PX-2
PX-3
QUCHIC, also known as 'BB-22'
QUPIC, also known as 'PB-22'
RCS-4
RCS-8
Rimonabant, also known as 'SR141716'
Rosonabant, also known as 'E-6776'
RTI-371
S-444,823
SDB-006
SER-601
SPA-229
SR-144,528
STS-135
Surinabant, also known as 'SR147778'
Taranabant, also known as 'MK-0364'
Tedalinab
THC-O-acetate
THC-O-phosphate
THJ-018
THJ-2201
Tinabinol
TM-38837
UR-144
URB-447
URB-447
URB-597
URB-602
URB-754
VCHSR
VDM-11
VSN-16
WIN 54,461
WIN 55,212-2
WIN 56,098
XLR-11
Yangonin

Other

Harmaline†, harmala alkaloids†, and other beta-carbolines, active constituents of ayahuasca; powerful MAOIs (can be classified as indoles)
Salvinorin A†, an opioid (κ-opioid receptor agonist), the active constituent of Salvia divinorum sage
Salvinorin B methoxymethyl ether†, a semi-synthetic analogue of the natural product salvinorin A with longer duration and increased affinity and potency at the κ-opioid receptor
Salvinorin B ethoxymethyl ether†, a semi-synthetic analogue of the natural product salvinorin A with longer duration and increased affinity and potency at the κ-opioid receptor
Piperazines, such as pFPP and TFMPP, usually classified as stimulants
Myristicin† and elemicin†, the active constituents of nutmeg
Cryogenine (Vertine)†, the active constituent of certain Heimia species
Atropine†, scopolamine†, and hyoscyamine†, the active constituents of certain Solanaceae species
Ibotenic acid† and muscimol†, the active constituents of Amanita muscaria mushrooms

Hallucinogens are drugs that act on the brain and nervous system to create altered states of reality and a heightened sensory experience. Drugs that cause hallucinations include both lab-created chemicals and naturally occurring substances. Around 5.6 million people aged 12 or older reported using hallucinogens in the past year, according to the 2018 National Survey on Drug Use and Health. Young people who abuse hallucinogens are more likely to have mental health issues and struggle with impulsiveness. People seek the effects of hallucinogens on the body because they desire a spiritual, mystical, or introspective experience. They may want to feel euphoric or high or escape reality. The problem is that these chemicals are unpredictable. A good “trip” the first time doesn’t guarantee one the next time. The extent of hallucinogens’ long-term effects are also somewhat of a wild card, since there’s not a lot of research on it.

Signs of hallucinogenic drugs in the system include:

Interacting with visual or auditory hallucinations
Freezing and staring into space
Acting drunk
Looking stunned or having high energy, but otherwise seeming normal

Hallucinogens may also cause people to appear terrified, angry, and violent. They may have convulsions, vomit, or pass out.

Types of Hallucinogens and Psychedelic Drugs

People have used psychedelic and hallucinogenic drugs since the beginning of time. There are two main types of hallucinogens: natural and synthetic. Naturally occurring chemicals have long been a part of spiritual practices all over the world. In modern times these chemicals are also abused for recreational reasons and manufactured in laboratories.
#1 Natural Psychedelics

Like the name implies, natural psychedelics are found in nature. The plants are often grown specifically for their intoxicating properties. Types of natural hallucinogens and psychedelics include:
Ayahuasca

Sometimes called “brew,” ayahuasca is a tea made from a plant native to South America. Amazon tribes have used it in religious rituals for thousands of years. Users brew the leaves of the Banisteriopsis caapi vine in hot water. Banisteriopsis caapi contains the chemical N,N-dimethyltryptamine (DMT). In its synthetic form, DMT is a Schedule I controlled substance in the United States. This classifies it as a drug with high potential for abuse and no known medical use.

Ayahuasca’s popularity increased in the West as people became more aware of the high it offers. Some small studies suggest health benefits of using it as well. People from the United States, Canada, and much of Europe have been known to travel to South America to obtain and use ayahuasca.
Ayahuasca Side Effects and Symptoms

Drinking ayahuasca tea causes psychedelic drug effects like:

Dissociation from the body
Visual hallucinations
Auditory hallucinations

Hallucinogen effects begin between 20 and 60 minutes after drinking it. They tend to last for two to six hours.

Everyone reacts to ayahuasca differently. Many people experience pleasant body highs or hallucinations they say make them feel closer to the universe. Others have intense, anxious, or paranoid highs. Some research notes vomiting and increased blood pressure as common side effects of the hallucinogen.
Ayahuasca Long-Term Effects

There’s scarce information on this hallucinogen’s long-term effects. As with any substance of abuse, psychological dependence is a risk. Some case studies have found that ayahuasca puts people at risk for developing psychosis, especially if they already struggle with mental illness.
Is Ayahuasca Addictive?

Like most hallucinogens, when taken by itself, ayahuasca doesn’t have addictive qualities, but psychological addiction is always a risk for any substance abused for recreation.
Datura

Also called Jimson weed, datura is a flowering plant in the nightshade family. Nightshades are notoriously poisonous, but datura has some hallucinogenic effects too, leading to both intense and negative experiences while high. Datura can also cause poisoning.

Datura is native to North America. Reports of poisoning and substance abuse related to datura increase during the summer when it flowers. Since it’s a decorative plant, it’s legal to purchase datura seeds or the live plants and grow them in home gardens. The flowers are white or purple and trumpet-shaped, and the plant itself grows to between three and five feet tall.

Datura Side Effects and Symptoms

Datura can cause:

Fever
Dry mouth
Dilated pupils
Blurred vision
Delirium
Euphoria
Trouble speaking or swallowing
Seizures
Excessive thirst
Poisoning
Death

These hallucinogen effects may begin within one to four hours after ingestion, but they can last one to two days.

Long-Term Effects of Datura

Long-term effects of datura may include hospitalization and death from poisoning.
Is Datura Addictive?

People can become addicted to the feeling datura gives them, but there is limited research on physical dependence.
Mescaline/Peyote

Mescaline is an amphetamine found in peyote—a hallucinogenic drug made from the “buttons” of a spineless cactus native to Central America. It’s one of the oldest known hallucinogens. Rather than selling pure peyote, many drug dealers sell synthetic versions, like lab-created mescaline or PCP instead. Peyote and mescaline are both Schedule I substances, according to the Controlled Substances Act (CSA). There are exceptions specifically for indigenous groups using the compound in religious rituals.

The limited growing range of mescaline has curbed its abuse to some extent. Indigenous people use it carefully in spiritual rituals and rites, but with the increased popularity of recreational hallucinogen abuse in the United States, Canada, and other Western countries, demand for the substance continues to increase.
Mescaline/Peyote Signs and Symptoms

Effects from this hallucinogen drug include:

Numbness or tingling
Rapid reflexes
Muscle twitches and weakness
Impaired motor coordination
Dizziness and trembling
Dilation of the pupils
Increased blood pressure and heart rate
Chills and shivering
Appetite suppression
Anxiety and paranoia
Nausea and vomiting
Vivid, distorted visions and sounds
Altered sense of space and time

Long-Term Effects of Mescaline/Peyote

Research on the long-term effects of mescaline are lacking. Older studies show no long-term effects on indigenous people who use the hallucinogen in rituals but haven’t evaluated people who use it for recreational purposes. There have been reports of poisoning from mescaline over the years.
Is Mescaline/Peyote Addictive?

Some research has found mescaline to be non-addictive.
Morning Glory Seeds

The morning glory plant (also called LSA) is an invasive species in many parts of North America. The seeds contain a chemical like LSD (D-lysergic acid diethylamide). Morning glory seeds may be sold legally at garden supply stores or on the street as an alternative to LSD.
Morning Glory Seeds Signs and Symptoms

The effects of morning glory seeds are reportedly not as significant as those of LSD. Eating the seeds can be toxic, as they may contain:

Herbicides
Insecticides
Other poisonous chemicals

Abuse of morning glory seeds can be very harmful and lead to poisoning and hospitalization.

Long-Term Effects of Morning Glory Seeds

Some research suggests that morning glory seeds can contribute to kidney damage.
Are Morning Glory Seeds Addictive?

There is limited research on long-term effects of these hallucinogens. Psychological dependence can be a risk.
Psilocybin/Psilocyn

The chemicals in psilocybin and psilocyn are closely related. They’re both hallucinogenic compounds found in about 100 species of mushroom that are native to:

South America
Central America
Mexico
Southeast
Pacific Northwest

The potency of each mushroom varies. Some contain enough of the hallucinogenic compounds that they are dried and either eaten or brewed into tea. This is better known as “shrooms” or “magic mushrooms.” In some cases, psilocybin is made synthetically and sold as a white powder.

Indigenous people in Central and South America have used these mushrooms for religious rituals for thousands of years, but the U.S. Drug Enforcement Administration classifies psilocybin as a Schedule I substance.
Psilocybin/Psilocyn Signs and Symptoms

Psilocybin and psilocyn can cause effects similar to those of LSD or peyote. These may include:

Auditory hallucinations
Visual hallucinations
Detachment from reality
Panic
Psychosis
Hunger
Fever
Sleep disturbances
Mood effects
Changes in muscle control

Long-Term Effects of Psilocybin/Psilocyn

Research has yet to find significant long-term effects of psilocybin/psilocyn.
Is Psilocybin/Psilocyn Addictive?

There is limited risk of physical dependence on psilocybin/psilocyn, but like any drug of abuse, it can become psychologically addictive.
Salvia

Salvia is a plant considered to have low addiction potential, but it is toxic in larger doses. The Mazatec tribe has used salvia for religious rituals for thousands of years. Salvia leaves are brewed into a tea and then consumed so the shaman can have spiritual visions. The leaves may also be smoked or chewed.
Salvia Signs and Symptoms

The active ingredient is salvinor in A, a kappa opioid receptor (KOR) agonist. This chemical affects how much dopamine is released into the brain. Excess dopamine can cause intense euphoric feelings and hallucinations.

Effects of salvia may include:

Distorted imagery
Euphoria
Detached feeling
Distortions of space and time
Heightened visual experience
Talkativeness
Out-of-body experiences
Paranoia
Anxiety
Uneasiness

Long-Term Effects of Salvia

The long-term effects of regularly abusing salvia as a psychoactive drug are unknown.
Is Salvia Addictive?

Taken by itself, salvia has low potential for addiction.
#2 Synthetic Hallucinogens

Chemicals in synthetic hallucinogens are often derived from natural sources, but they’re typically manufactured in a lab. Some of these synthetic psychedelics were derived or created for medicinal purposes, like:

Improving mental health conditions
Use as anesthetics
Use as sedatives
Use as stimulants

Now, synthetic hallucinogens are more often abused to get high.

Types of synthetic hallucinogens and psychedelics include:
25I-NBOMe

25I-NBOMe has stimulative and hallucinogenic effects. Typically, 25I-NBOMe is purchased online. It’s one of several compounds in the NBOMe family. The drug is classified as a Schedule I controlled substance by the DEA. This means it has no known medical use and is at high risk of being abused. Since 25I-NBOMe is a research chemical, there are animal studies comparing it to other psychoactive drugs like psilocybin. There are no human trials available, so information on the drug is based on illicit abuse.
25I-NBOMe Signs and Symptoms

Effects of 25I-NBOMe start and last for different durations, depending on how it is consumed. NBOMe effects can include:

Feeling empathy and connection with others
A general change in consciousness
Euphoria
Hallucinations
Confusion
Paranoia
Nausea
Insomnia
Swelling in the extremities

Long-Term Effects of 25I-NBOMe

There have been several non-fatal intoxications due to this drug and a small number of deaths due to overdose. While the drug is not widely abused, it is potent and dangerous.
Is 251-NBOMe Addictive?

There isn’t sufficient research to deem 251-NBOMe addictive.
Dextromethorphan (DXM)

DXM is found in many over-the-counter cold and flu treatments. It suppresses coughing and the production of mucous. DXM may also be in some prescription medications to treat:

Sinus congestion
Runny nose
Sneezing
Coughing
Itching

Signs and Symptoms of DXM

When taken as directed, DXM has few adverse side effects. Abuse of the drug has increased as more people discover its hallucinogenic, dissociative, and intoxicating properties.

In large doses, DXM is a dissociative anesthetic. It can create powerful psychedelic effects similar to the effects of ketamine or PCP. DXM effects vary depending on the dose but may include:

Hot flashes
Nausea and vomiting
Dizziness and lack of coordination
Panic attacks
Hyperactivity
Lethargy and slurred speech
Feelings of floating
Altered sense of time and space
Tactile hallucinations
Impaired judgment
Seizures

Long-Term Effects of DXM Long-term effects of DXM may include symptoms like:

Anxiety
Depression
Insomnia
Mood swings
Weakened bones
Muscle weakness and pain
Toxic psychosis

Is DXM Addictive?

Studies show that people who abuse DXM are at risk for dependence and withdrawal from DXM in its absence. Learn more about DXM here.
DMT

N,N-Dimethyltryptamine (DMT) is a hallucinogenic chemical found naturally in several plants and animals. Sometimes called the “spirit molecule” for the very specific and consistent hallucinations it produces, DMT is typically produced in an illegal laboratory.
DMT Signs and Symptoms

DMT effects are felt almost instantly, depending on how it’s taken. When smoked, effects occur in a minute or less and last for about 30 minutes. When consumed as a tea, effects take about 30 minutes to begin and last for 4 to 6 hours.

The hallucinations from DMT are similar for many people, and they include visual distortions. Sometimes this is called “the crystalline machine elves,” as the person feels like they’ve broken through into a different world with moving, machine-like parts.

After taking DMT, some people experience:

Bad hallucinations
Paranoid feelings
Negative body sensations

Long-Term Effects of DMT

People who abuse DMT are at risk for serotonin syndrome, especially if they take antidepressants.

This is due to excessive serotonin and can lead to:

Headaches
Confusion
High blood pressure
Agitation

People who abuse DMT are also at risk for:

Coma
Seizures
Respiratory arrest
Mental health issues

Is DMT Addictive?

While there’s limited check here research on the addictive qualities of DMT, people may develop a psychological dependence to its effects or to ward off adverse symptoms.
Ketamine

Ketamine is sometimes used as part of surgical anesthesia since it has pain-stopping properties. It’s also an alternative treatment for depression. Because ketamine has legitimate medical uses, the DEA classifies it as a Schedule III drug despite its potential for abuse.
Ketamine Signs and Symptoms

When used in large doses, ketamine can cause hallucinations. It’s also a dissociative anesthetic, so people may abuse it:

For pain relief
To feel far away from their bodies
To feel euphoric

Ketamine is sold illicitly in powders, liquids, or tablets. It is smoked, snorted, or orally consumed.

Ketamine effects in lower doses include:

Feelings of floating
Dissociation
Stimulation
Hallucinations

Very large doses produce an effect called the “K-hole,” an out-of-body experience that is produced as the person is almost completely sedated. Some people describe it as feeling like they’re going to die.

Learn more about the signs of ketamine use here.
Long-Term Effects of Ketamine

Ketamine abuse puts people at risk for:

Kidney disease
Ulcers
Memory issues
Depression
Overdose
Death

Is Ketamine Addictive?

Research shows that people can develop a tolerance to ketamine, which may cause them to keep increasing the amount taken. Learn more about treatment for ketamine dependence here.
LSD: D-lysergic acid diethylamide (LSD)

LSD is one of the most famous and potent hallucinogens in the United States. It is synthesized from lysergic acid, which is derived from the ergot fungus. LSD became a psychiatric drug in the 1950s. It was widely abused by counterculture movements in the 1960s. LSD is now classified as a Schedule I drug by the DEA, which means it has high potential for abuse.
Signs and Symptoms of LSD

Effects of LSD include:

Distorted perception of time
Heightened visual experience
Euphoria
Mood changes
Anxiety
Paranoia
Dizziness
Sleep disturbances

It is also possible to have a bad trip. This may involve visual and auditory hallucinations that are disturbing.
Long-Term Effects of LSD

Abusing LSD may impact brain chemistry. Long-term effects may include psychosis or flashbacks.
Is LSD Addictive?

LSD is not considered physically addictive, but people may develop a psychological need for it.
Phencyclidine (PCP)

PCP is also called “angel dust.” It was originally developed as a dissociative anesthetic in the 1950s, but medical use was discontinued due to negative reactions. The chemical often caused:

Delusions
Severe anxiety
Agitation

While PCP is still occasionally used in veterinary medicine, it’s no longer used in humans for medical reasons. PCP is mostly made in illicit laboratories. PCP disrupts the brain’s glutamate receptors, which play a major role in:

Perception of pain
Learning
Emotion
Memory

PCP Signs and Symptoms

Some signs of PCP use include:

Euphoria
Sense of calm
Drowsiness
Poor coordination
Breathing issues
Anxiety
Paranoia
Panic
High blood pressure
Rapid heart rate

Long-Term Effects of PCP PCP abuse can lead to:

Depression
Anxiety
Flashbacks
Social withdrawal
Memory problems
Speech issues
Suicidal thoughts

Is PCP Addictive?

A tolerance to PCP is possible over long-term use. This can create addictive behaviors around the drug.

Can Hallucinogens Be Used as Medicines?

Some hallucinogens are being researched for potential treatment in mental health disorders like depression. For example, Esketamine is approved by the FDA to treat depression when other approaches have been unsuccessful.

It’s important to know that unlike other drugs, hallucinogen effects are very unreliable, variable and unpredictable. They can affect people differently. Any use of hallucinogens for potential medical benefit should always be overseen by a medical professional.

Get Help for Hallucinogen Abuse

In some cases, hallucinogens can be addictive. It’s possible to develop a tolerance to them, needing more and more to get the same desired effect. There are yet no FDA-approved medicines to treat hallucinogen addiction. Behavioral therapy can be helpful in addressing the psychological addictive properties. Hallucinogen abuse may occur in combination with addictive substances like:

Alcohol
Cannabis
Opioids
Cocaine

It’s important to find a detox program that understands psychedelic substances, so you can get the best medical support from doctors, nurses, and counselors. A rehabilitation program like those at Footprints to Recovery can help you understand triggers for substance abuse and how to manage them so you can sustain your sobriety. Contact us for a free, confidential consultation.
 

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